Explanation Given information: Water at 20 ° C through a 8 cm diameter pipe from one reservoir to the other with lower reservoir has surface elevation of z 2 = 80 m . Write the expression for the Bernoulli’s equation between two sections. p 1 ρ + V 1 2 2 + z 1 g = p 2 ρ + V 2 2 2 + z 2 g + h f g ( p 1 ρ − p 2 ρ ) + ( V 1 2 2 − V 2 2 2 ) + ( z 1 g − z 2 g ) = h f g h f g = 1 ρ ( p 1 − p 2 ) + 1 2 { ( V 1 − V 2 ) ( V 1 + V 2 ) } + ( z 1 − z 2 ) g .... (I) Here, the pressure at section (1) is p 1 , the velocity at section (1) is V 1 , the height of the section (1) from the datum is z 1 , the pressure at section (2) is p 2 , the velocity at section (2) is V 2 , the height of the section (2) from the datum is z 2 , the density of oil is ρ , the head loss due to friction is h f and the acceleration due to gravity is g . Since the area of the pipe is constant; so the velocity difference at both the section is zero. V 1 − V 2 = 0 Since the flow is steady the pressure change across the pipe is zero. ( p 1 − p 2 ) = 0 Substitute 0 for V 1 − V 2 and 0 for ( p 1 − p 2 ) in Equation (I). h f g = ( 1 ρ × 0 ) + 1 2 { 0 × ( V 1 + V 2 ) } + ( z 1 − z 2 ) g h f = ( z 1 − z 2 ) .... (II) Write the expression for the head loss in the pipe. h f = 17.5 ( V 2 2 g ) Here, the average velocity in the pipe is V . Substitute 17.5 V 2 2 g for h f in Equation (II)

8th Edition

ISBN: 9780073398273

Author: Frank M. White

Publisher: McGraw-Hill Education

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Chapter 3, Problem 3.175P

To determine

The surface elevation of the higher reservoir.

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Chapter 3, Problem 3.174P

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